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Guidelines for Managing Abnormal Situations
by CCPS (Center for Chemical Process Safety)GUIDELINES FOR MANAGING ABNORMAL SITUATIONS
Guidelines for Managing Abnormal Situations
by CCPS (Center for Chemical Process Safety)GUIDELINES FOR MANAGING ABNORMAL SITUATIONS
Polluted Earth: The Science of the Earth's Environment
by Alexander GatesPOLLUTED EARTH A fresh and engaging introduction to the science behind pollution disasters for science and non-science majors Coming generations will have to reckon with a growing number of environmental challenges, whether caused by climate change, population growth or industrial production. Polluted Earth: The Science of the Earth’s Environment combines the best features of a textbook and a popular science book. It retains the organization needed for a course while adopting a highly illustrative style that is mirrored in a multitude of case studies: short, self-contained and well-illustrated stories of well-known pollution disasters that are highly engaging for both science and non-science majors, from the historic Black Sunday dust storm in the midwestern United States to the more recent Deepwater Horizon spill in the Gulf of Mexico. From the very start, it also introduces the concept of environmental justice that ties pollution to economic and social life, bringing its subject into the world of the reader in an unprecedented way. Polluted Earth readers will also find: Well-known case studies including the Great London smog, the Pacific Gas and Electric case (made famous by Erin Brockovitch), the Exxon Valdez, and more Detailed illustrations showing the spatial and temporal relations of various pollution sources Modern technological solutions already in use by environmental industries A comprehensive list of pollutants, their health & environmental impact and their regulated exposure limits With its fresh and engaging style, Polluted Earth is an ideal introduction to the concepts, tasks and challenges of environmental science for undergraduate students of all disciplines.
Polluted Earth: The Science of the Earth's Environment
by Alexander GatesPOLLUTED EARTH A fresh and engaging introduction to the science behind pollution disasters for science and non-science majors Coming generations will have to reckon with a growing number of environmental challenges, whether caused by climate change, population growth or industrial production. Polluted Earth: The Science of the Earth’s Environment combines the best features of a textbook and a popular science book. It retains the organization needed for a course while adopting a highly illustrative style that is mirrored in a multitude of case studies: short, self-contained and well-illustrated stories of well-known pollution disasters that are highly engaging for both science and non-science majors, from the historic Black Sunday dust storm in the midwestern United States to the more recent Deepwater Horizon spill in the Gulf of Mexico. From the very start, it also introduces the concept of environmental justice that ties pollution to economic and social life, bringing its subject into the world of the reader in an unprecedented way. Polluted Earth readers will also find: Well-known case studies including the Great London smog, the Pacific Gas and Electric case (made famous by Erin Brockovitch), the Exxon Valdez, and more Detailed illustrations showing the spatial and temporal relations of various pollution sources Modern technological solutions already in use by environmental industries A comprehensive list of pollutants, their health & environmental impact and their regulated exposure limits With its fresh and engaging style, Polluted Earth is an ideal introduction to the concepts, tasks and challenges of environmental science for undergraduate students of all disciplines.
Managing Cybersecurity in the Process Industries: A Risk-based Approach
by CCPS (Center for Chemical Process Safety)The chemical process industry is a rich target for cyber attackers who are intent on causing harm. Current risk management techniques are based on the premise that events are initiated by a single failure and the succeeding sequence of events is predictable. A cyberattack on the Safety, Controls, Alarms, and Interlocks (SCAI) undermines this basic assumption. Each facility should have a Cybersecurity Policy, Implementation Plan and Threat Response Plan in place. The response plan should address how to bring the process to a safe state when controls and safety systems are compromised. The emergency response plan should be updated to reflect different actions that may be appropriate in a sabotage situation. IT professionals, even those working at chemical facilities are primarily focused on the risk to business systems. This book contains guidelines for companies on how to improve their process safety performance by applying Risk Based Process Safety (RBPS) concepts and techniques to the problem of cybersecurity.
Managing Cybersecurity in the Process Industries: A Risk-based Approach
by CCPS (Center for Chemical Process Safety)The chemical process industry is a rich target for cyber attackers who are intent on causing harm. Current risk management techniques are based on the premise that events are initiated by a single failure and the succeeding sequence of events is predictable. A cyberattack on the Safety, Controls, Alarms, and Interlocks (SCAI) undermines this basic assumption. Each facility should have a Cybersecurity Policy, Implementation Plan and Threat Response Plan in place. The response plan should address how to bring the process to a safe state when controls and safety systems are compromised. The emergency response plan should be updated to reflect different actions that may be appropriate in a sabotage situation. IT professionals, even those working at chemical facilities are primarily focused on the risk to business systems. This book contains guidelines for companies on how to improve their process safety performance by applying Risk Based Process Safety (RBPS) concepts and techniques to the problem of cybersecurity.
Biochemistry For Dummies
by John T. Moore Richard H. LangleyIt’s alive! It’s alive! (Thanks to biochemistry, that is.) Biochemistry is the science of the chemical processes that allow for…well…life. If it moves, breathes, eats, or sleeps, biochemistry can probably explain how. So, it stands to reason that the fundamentals of biochemistry can get a little complicated. In Biochemistry For Dummies, you’ll explore the carbons, proteins, and cellular systems that make up the biochemical processes that create and sustain life of all kinds. Perfect for students majoring in biology, chemistry, pre-med, health-services, and other science-related fields, this book tracks a typical college-level biochemistry class. It simplifies and clarifies the subject with easy-to-follow diagrams and real-world examples. You’ll also get: Explorations of cell biology, carbohydrates, proteins, lipids, and other fundamental building blocks of life Discussions of the basic structures common to all living organisms Treatments of the microscopic details of life that make us all tick If you’re looking for a hand with some of the trickier parts of biochemistry—or you just need an accessible overview of the subject—check out Biochemistry For Dummies today!
Biochemistry For Dummies
by John T. Moore Richard H. LangleyIt’s alive! It’s alive! (Thanks to biochemistry, that is.) Biochemistry is the science of the chemical processes that allow for…well…life. If it moves, breathes, eats, or sleeps, biochemistry can probably explain how. So, it stands to reason that the fundamentals of biochemistry can get a little complicated. In Biochemistry For Dummies, you’ll explore the carbons, proteins, and cellular systems that make up the biochemical processes that create and sustain life of all kinds. Perfect for students majoring in biology, chemistry, pre-med, health-services, and other science-related fields, this book tracks a typical college-level biochemistry class. It simplifies and clarifies the subject with easy-to-follow diagrams and real-world examples. You’ll also get: Explorations of cell biology, carbohydrates, proteins, lipids, and other fundamental building blocks of life Discussions of the basic structures common to all living organisms Treatments of the microscopic details of life that make us all tick If you’re looking for a hand with some of the trickier parts of biochemistry—or you just need an accessible overview of the subject—check out Biochemistry For Dummies today!
Global Climate Change and Plant Stress Management
by Narendra TutejaGlobal Climate Change and Plant Stress Management Understand the impact of climate change on plant growth with this timely introduction Climate change has had unprecedented consequences for plant metabolism and plant growth. In botany, adverse effects of this kind are called plant stress conditions; in recent years, the plant stress conditions generated by climate change have been the subject of considerable study. Plants have exhibited increased photosynthesis, increased water requirements, and more. There is an urgent need to understand and address these changes as we adapt to drastic changes in the global climate. Global Climate Change and Plant Stress Management presents a comprehensive guide to the effects of global climate change on plants and plant metabolism. It introduces and describes each climate change-related condition and its components, offering a detailed analysis of the resulting stress conditions, the environmental factors which ameliorate or exacerbate them, and possible solutions. The result is a thorough, rigorous introduction to this critical subject for the future of our biome. Readers will also find: Analysis of global climate change impact on various agricultural practices Socio-economic consequences of climate change and plant stress conditions, and possible solutions Strategies for sustainable agriculture Global Climate Change and Plant Stress Management is essential for researchers, scientists, and industry professionals working in the life sciences, as well as for advanced graduate students.
Global Climate Change and Plant Stress Management
by Mohammad Wahid Ansari Anil Kumar Singh Narendra TutejaGlobal Climate Change and Plant Stress Management Understand the impact of climate change on plant growth with this timely introduction Climate change has had unprecedented consequences for plant metabolism and plant growth. In botany, adverse effects of this kind are called plant stress conditions; in recent years, the plant stress conditions generated by climate change have been the subject of considerable study. Plants have exhibited increased photosynthesis, increased water requirements, and more. There is an urgent need to understand and address these changes as we adapt to drastic changes in the global climate. Global Climate Change and Plant Stress Management presents a comprehensive guide to the effects of global climate change on plants and plant metabolism. It introduces and describes each climate change-related condition and its components, offering a detailed analysis of the resulting stress conditions, the environmental factors which ameliorate or exacerbate them, and possible solutions. The result is a thorough, rigorous introduction to this critical subject for the future of our biome. Readers will also find: Analysis of global climate change impact on various agricultural practices Socio-economic consequences of climate change and plant stress conditions, and possible solutions Strategies for sustainable agriculture Global Climate Change and Plant Stress Management is essential for researchers, scientists, and industry professionals working in the life sciences, as well as for advanced graduate students.
Contact Lenses: Chemicals, Methods, and Applications
by Johannes Karl FinkCONTACT LENSES The book focuses on the chemistry and properties of contact lenses and their fabrication methods. With research & development continuing in the field, this comprehensive book takes a look at the last 10 years in terms of new materials, chemistry methods, applications, and fabrication techniques. New applications include drug delivery, lenses for augmented reality, electronic contact lenses, and wearable smart contact lenses. In addition, the book discusses simulation methods for contact lenses, such as ocular topography parameters, gas permeable lenses, and computerized videokeratography. On the fabrication front, several common fabrication methods for contact lenses are detailed, including the computer-aided contact lens design, methods for the fabrication of colored contact lenses, and the fabrication of decentered contact lenses. Special processes are reviewed, including, mold processes, reactive ion etching, electrospinning, and others. Also discussed are the properties of contact lenses and methods for the measurement. Many of the standard methods are discussed, but other issues are taken up too including a discussion on the assessment of cytotoxic effects, the Schirmer tear test, and others. The book concludes with a chapter detailing the possible medical problems related to contact lenses and how to avoid them. These include eye diseases, allergic and toxic reactions, as well as methods for medical treatment such as disinfection agents. Audience The book will be used by chemists, polymer scientists, ophthalmologists, engineers in the contact lens industry as well as polymer industries.
Contact Lenses: Chemicals, Methods, and Applications
by Johannes Karl FinkCONTACT LENSES The book focuses on the chemistry and properties of contact lenses and their fabrication methods. With research & development continuing in the field, this comprehensive book takes a look at the last 10 years in terms of new materials, chemistry methods, applications, and fabrication techniques. New applications include drug delivery, lenses for augmented reality, electronic contact lenses, and wearable smart contact lenses. In addition, the book discusses simulation methods for contact lenses, such as ocular topography parameters, gas permeable lenses, and computerized videokeratography. On the fabrication front, several common fabrication methods for contact lenses are detailed, including the computer-aided contact lens design, methods for the fabrication of colored contact lenses, and the fabrication of decentered contact lenses. Special processes are reviewed, including, mold processes, reactive ion etching, electrospinning, and others. Also discussed are the properties of contact lenses and methods for the measurement. Many of the standard methods are discussed, but other issues are taken up too including a discussion on the assessment of cytotoxic effects, the Schirmer tear test, and others. The book concludes with a chapter detailing the possible medical problems related to contact lenses and how to avoid them. These include eye diseases, allergic and toxic reactions, as well as methods for medical treatment such as disinfection agents. Audience The book will be used by chemists, polymer scientists, ophthalmologists, engineers in the contact lens industry as well as polymer industries.
Next-Generation Algae, Volume 2: Applications in Medicine and the Pharmaceutical Industry
by Charles Oluwaseun Adetunji Julius Kola Oloke Naveen Dwivedi Sabeela Beevi Ummalyma Shubha Dwivedi Juliana Bunmi Adetunji Daniel Ingo HefftNEXT-GENERATION ALGAE The book comprehensively details the novel and biologically active compounds derived from algae for sustainable healthcare delivery that could be used for the treatment of an ever-increasing population, prevention of high rate of morbidity rates, as well as in the treatment of numerous diseases, and serve as an alternative drug for the prevention of high level of resistance to synthetic drugs. This second volume places a special emphasis on the discovery of novel and biologically active compounds from algae. It covers a wide range of applications, including the use of astaxanthin and carotenoids derived from algae for the production of nutraceuticals, pharmaceuticals, additives, food supplements, and feed. The book also discusses the production of polyunsaturated fatty acids (PUFAs) and their biomedical applications, recent advancements in the research of sulfated polysaccharides from algal origin, and their antiulcer bioactivities. Other topics include the application of algae in wound healing, the use of nanotechnology for the bioengineering of useful metabolites derived from algae and their multifaceted applications, and the production of single-cell proteins and pigments with high relevance in the industry. Audience Researchers in industry and academia as well as clinicians in the fields of microbiology, biotechnology, and food science will find this book very pertinent.
Next-Generation Algae, Volume 2: Applications in Medicine and the Pharmaceutical Industry
by Charles Oluwaseun Adetunji Julius Kola Oloke Naveen Dwivedi Sabeela Beevi Ummalyma Shubha Dwivedi Daniel Ingo Hefft Juliana Bunmi AdetunjiNEXT-GENERATION ALGAE The book comprehensively details the novel and biologically active compounds derived from algae for sustainable healthcare delivery that could be used for the treatment of an ever-increasing population, prevention of high rate of morbidity rates, as well as in the treatment of numerous diseases, and serve as an alternative drug for the prevention of high level of resistance to synthetic drugs. This second volume places a special emphasis on the discovery of novel and biologically active compounds from algae. It covers a wide range of applications, including the use of astaxanthin and carotenoids derived from algae for the production of nutraceuticals, pharmaceuticals, additives, food supplements, and feed. The book also discusses the production of polyunsaturated fatty acids (PUFAs) and their biomedical applications, recent advancements in the research of sulfated polysaccharides from algal origin, and their antiulcer bioactivities. Other topics include the application of algae in wound healing, the use of nanotechnology for the bioengineering of useful metabolites derived from algae and their multifaceted applications, and the production of single-cell proteins and pigments with high relevance in the industry. Audience Researchers in industry and academia as well as clinicians in the fields of microbiology, biotechnology, and food science will find this book very pertinent.
Next-Generation Algae, Volume 1: Applications in Agriculture, Food and Environment
by Naveen Dwivedi Sabeela Beevi Ummalyma Shubha Dwivedi Juliana Bunmi Adetunji Daniel Ingo Hefft Julius Kola Oloke Charles Oluwaseun AdetunjiNEXT-GENERATION ALGAE This book brings together experts in relevant fields to describe the successful application of algae and their derivatives in agriculture, improving agricultural sustainability, harvesting and processing, food security, fishery, aquafarming, agriculture pollution, and state-of-the-art developments of algae in commercial and agriculture utilization. This book provides up-to-date and cutting-edge information on the application of algae in producing sustainable solutions to various challenges that arise from an increase in agricultural production, as well as its utilization in the bioremediation of industrial wastewater. Moreover, the book provides detailed information about the recent advancements in smart microalgae wastewater treatment using Internet of Things (IoT) and edge computing applications. Other topics covered include the use of microalgae in various applications; the use of algae to remove arsenic; algae’s role in plastic biodegradation, heavy metal bioremediation, and toxicity removal from industrial wastewater; the application of DNA transfer techniques in algae; the use of algae as food and in the production of food, ascorbic acid, health food, supplements, and food surrogates; relevant biostimulants and biofertilizers that could be derived from cyanobacterials and their role in sustainable agriculture; and algae’s application in the effective production of biofuels and bioenergy. Audience This book is aimed at a diverse audience including professionals, scientists, environmentalists, industrialists, researchers, innovators, and policymakers who have an interest in bioremediation technologies for extremely polluted environments, especially in water, air, and soil.
Next-Generation Algae, Volume 1: Applications in Agriculture, Food and Environment
by Charles Oluwaseun Adetunji Julius Kola Oloke Naveen Dwivedi Sabeela Beevi Ummalyma Shubha Dwivedi Daniel Ingo Hefft Juliana Bunmi AdetunjiNEXT-GENERATION ALGAE This book brings together experts in relevant fields to describe the successful application of algae and their derivatives in agriculture, improving agricultural sustainability, harvesting and processing, food security, fishery, aquafarming, agriculture pollution, and state-of-the-art developments of algae in commercial and agriculture utilization. This book provides up-to-date and cutting-edge information on the application of algae in producing sustainable solutions to various challenges that arise from an increase in agricultural production, as well as its utilization in the bioremediation of industrial wastewater. Moreover, the book provides detailed information about the recent advancements in smart microalgae wastewater treatment using Internet of Things (IoT) and edge computing applications. Other topics covered include the use of microalgae in various applications; the use of algae to remove arsenic; algae’s role in plastic biodegradation, heavy metal bioremediation, and toxicity removal from industrial wastewater; the application of DNA transfer techniques in algae; the use of algae as food and in the production of food, ascorbic acid, health food, supplements, and food surrogates; relevant biostimulants and biofertilizers that could be derived from cyanobacterials and their role in sustainable agriculture; and algae’s application in the effective production of biofuels and bioenergy. Audience This book is aimed at a diverse audience including professionals, scientists, environmentalists, industrialists, researchers, innovators, and policymakers who have an interest in bioremediation technologies for extremely polluted environments, especially in water, air, and soil.
Application of Sewage Sludge in Industrial Wastewater Treatment
by Maulin P. ShahAPPLICATION OF SEWAGE SLUDGE IN INDUSTRIAL WASTEWATER TREATMENT Comprehensive reference examining activated sludge technologies in industrial wastewater treatment, combining a theoretical framework with practical methodologies Application of Sewage Sludge in Industrial Wastewater Treatment provides a roadmap to the methodologies for the treatment of industrial wastewaters from several major sectors integrating theory and practice, highlighting the importance of sewage sludge technologies in industrial wastewater treatment to clean up the environment from pollution caused by human activities, and assessing the applications of several existing activated sludge techniques and introduces new emerging technologies. All discussion within the text is based on a solid theoretical background. Application of Sewage Sludge in Industrial Wastewater Treatment covers key topics such as: Issues related to activated sludge treatment, such as biodegradability-based characterization, modelling, assessment of stoichiometric, and kinetic parameters and design Issues related to industrial pollution control, such as in-plant control, effect of pretreatment, and more Recently increasing quantity and complexity of toxic effluents, which can be bio remediable for plants and suitable microbes, whether natural or customized for specific purposes Ecological, profitable, and natural solutions designed to eliminate heavy metals, radionuclides, xenobiotic compounds, organic waste, pesticides, and more This reference provides an essential, one-of-a-kind, integrated approach for environmental microbiologists, biochemical engineers, environmental engineers, effluent treatment plant operators, and biologists and chemists at wastewater treatment plants.
Application of Sewage Sludge in Industrial Wastewater Treatment
by Maulin P. ShahAPPLICATION OF SEWAGE SLUDGE IN INDUSTRIAL WASTEWATER TREATMENT Comprehensive reference examining activated sludge technologies in industrial wastewater treatment, combining a theoretical framework with practical methodologies Application of Sewage Sludge in Industrial Wastewater Treatment provides a roadmap to the methodologies for the treatment of industrial wastewaters from several major sectors integrating theory and practice, highlighting the importance of sewage sludge technologies in industrial wastewater treatment to clean up the environment from pollution caused by human activities, and assessing the applications of several existing activated sludge techniques and introduces new emerging technologies. All discussion within the text is based on a solid theoretical background. Application of Sewage Sludge in Industrial Wastewater Treatment covers key topics such as: Issues related to activated sludge treatment, such as biodegradability-based characterization, modelling, assessment of stoichiometric, and kinetic parameters and design Issues related to industrial pollution control, such as in-plant control, effect of pretreatment, and more Recently increasing quantity and complexity of toxic effluents, which can be bio remediable for plants and suitable microbes, whether natural or customized for specific purposes Ecological, profitable, and natural solutions designed to eliminate heavy metals, radionuclides, xenobiotic compounds, organic waste, pesticides, and more This reference provides an essential, one-of-a-kind, integrated approach for environmental microbiologists, biochemical engineers, environmental engineers, effluent treatment plant operators, and biologists and chemists at wastewater treatment plants.
Organic Reactions, Volume 108 (Organic Reactions)
by P. Andrew EvansThe 108th volume in this series for organic chemists in academia and industry presents critical discussions of the following widely used organic reactions: CYCLIZATION REACTIONS OF NITROGEN-CENTERED RADICALSStuart W. McCombie, Béatrice Quiclet-Sire, and Samir Z. Zard TRANSITION-METAL-CATALYZED AMINOOXYGENATION OF ALKENESSherry R. Chemler, Dake Chen, Shuklendu D. Karyakarte, Jonathan M. Shikora, and Tomasz Wdowik
Workshop Physics Activity Guide Module 3: Heat, Temperature, and Nuclear Radiation
by null Priscilla W. Laws null David P. Jackson null Brett J. PearsonThe Workshop Physics Activity Guide is a set of student workbooks designed to serve as the foundation for a two-semester calculus-based introductory physics course. It consists of four Modules, with a total of 28 units, that interweave text materials with activities that include prediction, qualitative observation, explanation, equation derivation, mathematical modeling, quantitative experiments, and problem solving. The modules help students understand the basis of knowledge in physics as interplay between observations, experiments, definitions, and mathematical theory. The inquiry-based activities in the modules give students the opportunity to work collaboratively to solve problems, while thinking critically to make predictions and observations. Students use a powerful set of computer tools to record, display, and analyze data, as well as to develop mathematical models of physical phenomena. The design of many of the activities is based on the outcomes of physics education research. Module 3 Unit 16 Heat and TemperatureUnit 17 Principles of ThermodynamicsUnit 18 Thermodynamics Processes and Heat EnginesUnit 28 Radioactivity and Radon
Organic Chemistry I Workbook For Dummies
by Arthur WinterNeed help with organic chemistry? Get extra practice with this workbook If you’re looking for a little extra help with organic chemistry than your Organic Chemistry I class offers, Organic Chemistry I Workbook For Dummies is exactly what you need! It lets you take the theories you’re learning (and maybe struggling with) in class and practice them in the same format you’ll find on class exams and other licensing exams, like the MCAT. It offers tips and tricks to memorize difficult concepts and shortcuts to solving problems. This reference guide and practice book explains the concepts of organic chemistry (such as functional groups, resonance, alkanes, and stereochemistry) in a concise, easy-to-understand format that helps you refine your skills. It also includes real practice with hundreds of exam questions to test your knowledge. Walk through the answers and clearly identify where you went wrong (or right) with each problem Get practical advice on acing your exams Use organic chemistry in practical applications Organic Chemistry I Workbook For Dummies provides you with opportunities to review the material and practice solving problems based on the topics covered in a typical Organic Chemistry I course. With the help of this practical reference, you can face down your exam and pass on to Organic Chemistry II with confidence!
Organic Chemistry I Workbook For Dummies
by Arthur WinterNeed help with organic chemistry? Get extra practice with this workbook If you’re looking for a little extra help with organic chemistry than your Organic Chemistry I class offers, Organic Chemistry I Workbook For Dummies is exactly what you need! It lets you take the theories you’re learning (and maybe struggling with) in class and practice them in the same format you’ll find on class exams and other licensing exams, like the MCAT. It offers tips and tricks to memorize difficult concepts and shortcuts to solving problems. This reference guide and practice book explains the concepts of organic chemistry (such as functional groups, resonance, alkanes, and stereochemistry) in a concise, easy-to-understand format that helps you refine your skills. It also includes real practice with hundreds of exam questions to test your knowledge. Walk through the answers and clearly identify where you went wrong (or right) with each problem Get practical advice on acing your exams Use organic chemistry in practical applications Organic Chemistry I Workbook For Dummies provides you with opportunities to review the material and practice solving problems based on the topics covered in a typical Organic Chemistry I course. With the help of this practical reference, you can face down your exam and pass on to Organic Chemistry II with confidence!
Enabling Tools and Techniques for Organic Synthesis: A Practical Guide to Experimentation, Automation, and Computation
by Stephen G. NewmanENABLING TOOLS AND TECHNIQUES FOR ORGANIC SYNTHESIS Provides the practical knowledge of how new technologies impact organic synthesis, enabling the reader to understand literature, evaluate different techniques, and solve synthetic challenges In recent years, new technologies have impacted organic chemistry to the point that they are no longer the sole domain of dedicated specialists. Computational chemistry, for example, can now be used by organic chemists to help predict outcomes, understand selectivity, and decipher mechanisms. To be prepared to solve various synthetic problems, it is increasingly important for chemists to familiarize themselves with a range of current and emerging tools and techniques. Enabling Tools and Techniques for Organic Synthesis: A Practical Guide to Experimentation, Automation, and Computation provides a broad overview of contemporary research and new technologies applied to organic synthesis. Detailed chapters, written by a team of experts from academia and industry, describe different state-of-the-art techniques such as computer-assisted retrosynthesis, spectroscopy prediction with computational chemistry, high throughput experimentation for reaction screening, and optimization using Design of Experiments (DoE). Emphasizing real-world practicality, the book includes chapters on programming for synthetic chemists, machine learning (ML) in chemical synthesis, concepts and applications of computational chemistry, and more. Highlights the most recent methods in organic synthesis and describes how to employ these techniques in a reader’s own research Familiarizes readers with the application of computational chemistry and automation technology in organic synthesis Introduces synthetic chemists to electrochemistry, photochemistry, and flow chemistry Helps readers comprehend the literature, assess the strengths and limitations of each technique, and apply those tools to solve synthetic challenges Provides case studies and guided examples with graphical illustrations in each chapter Enabling Tools and Techniques for Organic Synthesis: A Practical Guide to Experimentation, Automation, and Computation is an invaluable reference for scientists needing an up-to-date introduction to new tools, graduate students wanting to expand their organic chemistry skills, and instructors teaching courses in advanced techniques for organic synthesis.
Enabling Tools and Techniques for Organic Synthesis: A Practical Guide to Experimentation, Automation, and Computation
by Stephen G. NewmanENABLING TOOLS AND TECHNIQUES FOR ORGANIC SYNTHESIS Provides the practical knowledge of how new technologies impact organic synthesis, enabling the reader to understand literature, evaluate different techniques, and solve synthetic challenges In recent years, new technologies have impacted organic chemistry to the point that they are no longer the sole domain of dedicated specialists. Computational chemistry, for example, can now be used by organic chemists to help predict outcomes, understand selectivity, and decipher mechanisms. To be prepared to solve various synthetic problems, it is increasingly important for chemists to familiarize themselves with a range of current and emerging tools and techniques. Enabling Tools and Techniques for Organic Synthesis: A Practical Guide to Experimentation, Automation, and Computation provides a broad overview of contemporary research and new technologies applied to organic synthesis. Detailed chapters, written by a team of experts from academia and industry, describe different state-of-the-art techniques such as computer-assisted retrosynthesis, spectroscopy prediction with computational chemistry, high throughput experimentation for reaction screening, and optimization using Design of Experiments (DoE). Emphasizing real-world practicality, the book includes chapters on programming for synthetic chemists, machine learning (ML) in chemical synthesis, concepts and applications of computational chemistry, and more. Highlights the most recent methods in organic synthesis and describes how to employ these techniques in a reader’s own research Familiarizes readers with the application of computational chemistry and automation technology in organic synthesis Introduces synthetic chemists to electrochemistry, photochemistry, and flow chemistry Helps readers comprehend the literature, assess the strengths and limitations of each technique, and apply those tools to solve synthetic challenges Provides case studies and guided examples with graphical illustrations in each chapter Enabling Tools and Techniques for Organic Synthesis: A Practical Guide to Experimentation, Automation, and Computation is an invaluable reference for scientists needing an up-to-date introduction to new tools, graduate students wanting to expand their organic chemistry skills, and instructors teaching courses in advanced techniques for organic synthesis.
Disarmament and Decommissioning in the Nuclear Domain
by Jean-Claude AmiardFollowing the acquisition of the atomic bomb by five states, the United Nations began drafting several treaties to limit nuclear proliferation. These efforts failed, as four more states also acquired nuclear weapons. In a similar vein, an attempt to limit atomic weapons - primarily within the two superpowers - was initiated.While the number of weapons has decreased, the new bombs now being manufactured are more powerful and more precise, negating any reduction in numbers. In the field of civil nuclear use, all nuclear facilities (reactors, factories, etc.) have a limited lifespan. Once a plant is permanently shut down, these facilities must be decommissioned and dismantled.These operations are difficult, time-consuming and costly. In addition, decommissioning generates large volumes of radioactive waste of various categories, including long-lived and high-activity waste. Risks to the environment and to health are not negligible during decommissioning. The International Atomic Energy Agency (IAEA) and the Nuclear Energy Agency (NEA) of the Organisation for Economic Co-operation and Development (OECD) have produced numerous publications with recommendations. Each state has its own decommissioning strategy (immediate or delayed) and final plan for the site - whether it be returning it to greenfield status or obtaining a nuclear site license with centuries-long monitoring.